The perturbation of thrombin binding to human platelets by trypsin and neuraminidase

Abstract

The initial step in the interaction of thrombin with human platelets in binding of the enzyme to the platelet surface. The effects of digestion of isolated platelets with trypsin and neuraminidase on aggregation, release of serotonin and binding of thrombin have been examined. Trypsin is a powerful inducer of platelet aggregation as well as the release reaction. The aggregation effect of trypsin may be blocked with disodium ehtylenediaminetatraacetate (EDTA). Further, in the presence of EDTA, trypsin-induced release of [ 14C]serotonin is 15–20% lower compared to controls and the initial lag period is prolonged. Conditions were developed under which trypsin did neither aggregate nor release serotonin from platelets. Even under these conditions, trypsin caused a profound loss in the thrombin binding capacity of platelets. Thus, the trypsin-induced fall in the thrombin binding capacity and the platelet response are dissociated. This loss in the thrombin binding by trypsin is due to a lower number of binding sites available on the platelet surface and is not due to an altered affinity. Neuraminidase did not induce platelet aggregation or the release reaction. The ability of platelets to bind thrombin was also unimpaired by prior digestion with neuraminidase. Thus, the sialic acid at the platelet surface is not essential in the function of thrombin recognition by the receptor. This moiety may nontheless be a constituent of a glycoprotein which might act as the thrombin receptor.